DE202010007227U1 - High frequency test pin and high frequency test arrangement - Google Patents

Abstract

High-frequency test probe for detachably contacting a high-frequency contact partner having an inner (80) and an outer contact (82), in particular a high-frequency contact socket or plug, with
a coaxially formed, at one end contact portions (24, 74) for the high-frequency contact partner offering arrangement of an outer conductor (10, 16, 44) and a relative thereto in the axial direction resiliently guided inner conductor (20, 24, 48), which externally contacted externally are,
and a bush (36) which preferably guides the outer conductor in a spring-like manner and which is designed to be provided in a test apparatus,
characterized,
in that the outer conductor has means (74) for resiliently contacting a jacket section of the contact partner extending from an inner wall (70) of the receiving space and on or in to form one of the contact sections in an open end area forming a receiving space (12) for the contact partner these are held.

Description

The The present invention relates to a high frequency test pin the preamble of the main claim. Furthermore, the present invention relates Invention a high-frequency test arrangement with at least one such test pin.

Out In the prior art are pins as test pins for contacting a electrically measured product in the test field or quality control known for decades. Thereby contact pins (test pins) play an important role, because they provide, often with the help of feathers o. The like. Force stores flexibly supported, the electrical connection of an electrical test infrastructure to a test object ago, critical is in addition to the mechanical Resilience and fitness for a variety of inspection procedures in particular also a safe electrical contact.

While typical single pole test pins a tappet-shaped contact for engaging a contact point on a printed circuit board o. Contact partners is the testing of high-frequency test objects complicated. Typically, here the high-frequency probe must be coaxial contact, d. H. a high frequency test partner bipolar to indoor and outside Contact a coaxial structure can contact equally reliable.

Out The prior art, it is known, a high-frequency probe by means of an inner conductor and a coaxially formed outer conductor, which are designed to compensate for tolerances to each other resilient are, for placing on a high frequency socket as a contact partner in such a way that the annular outer edge of the outer conductor frontally (frontally) on the corresponding annular Außenktontakt the contact partner engages and the (here typically resilient) inner conductor then the Center contact of the contact also touched head-on.

A Such a procedure has in particular in connection with the testing from cellular modules and the like. High volume technology as reliable and proven exposed.

In However, in practice it is increasingly common that the (coaxial) High-frequency contact partner, for example in the form of a contact socket, a has machined inner and outer contact structure, in which the (plastic) insulator required between the inner and outer conductors not completely accurately is. This can then happen, that in the axial direction of this insulator material over a end edge of the external contact extends, with the result that a frontally attacking outer conductor a generic test pin gets no contact with the metallic external contact of the partner. Corresponding consequences are measurement and / or configuration problems.

task Therefore, it is the object of the present invention to provide a high frequency test pin the preamble of the main claim with regard to its contacting behavior to improve, in particular with regard to tolerances and / or with faulty sized isolator existing high frequency contact partners (typically high-frequency coaxial contact sockets or high-frequency contact plugs) improved contact conditions for an external contact to accomplish.

The Task is performed by the high-frequency probe with the characteristics of Main claim solved; advantageous developments of the invention are described in the subclaims. Additional protection in the context of the present invention is claimed for a high-frequency test arrangement in the form of a test adapter, which, by means of a preferably plate-shaped carrier element, at least one the high frequency probes receives.

In According to the invention advantageously Way is preferably hollow cylindrical configured receiving space (However, the present invention is not limited to this contour limited) provided with a holder for resilient contact means which, in departure from the principle described above of the prior art for frontal contact, the contact partner in terms of his external contact Contact on the shell side.

Advantageous is achieved by any protruding and contact-preventing Insulator material in the annular gap between external contact and coaxial internal contact no longer prevent contacting the external contact or to disturb can; rather allow the means for resilient contacting laterally (i.e., laterally accessing) always reliable and permanent contact.

In According to the invention advantageously and particularly elegant way this is realized by that in a further preferred radially circumferential groove, undercut or recess a spring element is held, which according to the invention advantageous so far protrudes into the recording room that in the recording room sitting contact partner a contact via the spring element to the outer conductor he follows.

It has proved to be particularly advantageous and elegant to realize this spring element as a so-called annular spring, namely as self-contained ring of a coiled spring wire, this ring is then dimensioned so that it can be inserted into the circumferential annular groove.

there is further education favorable this groove so dimensioned that this at inserted contact partner or at Inserting the same experiences a (contact-forming) deformation, this Deformation, however, does not cause an undesirable drift of the spring out of the retaining groove, rather, this retaining groove absorbs this deformation suitably.

Also is within the scope of the invention and preferably further education this Hold in terms of their depth (relative to the inner wall surface) so designed, on the one hand, for a sufficient contact, the annular spring protrudes from the inner wall, on the other hand the depth is big enough for example, by a potential degree-related front of the contact partner, unintentional release to prevent the ring spring.

in the Frame of preferred embodiments of the invention is the outside of the test pin as realized elongated, multi-part conductor arrangement, which at one end, more preferably in one piece, the receiving space in the form of a gradual extension (with hollow cylindrical Forming) can form. Opposite on the other end then the outer conductor suitably part of a (for example coaxially contactable again) Plug it to then then in otherwise known manner supply cable o. Like. Provide.

in the Frame preferred embodiments of the invention, the test pin means one the outer conductor advantageously surrounding socket in a support element of a test adapter Durable (and is typically there to achieve a press fit pressed in with slight undersize). The socket, more preferably jacket side flush with a paragraph the leader, works over a compression spring so with this together (typically a turn Coaxially provided coil spring, the respective, based on the socket engages inner ring heels of outer conductor and socket and so this apart against your spring force). Corresponding is so in the context of the invention, the advantageous additional Suspension of the arrangement of inner and outer conductor relative to the socket gewährleistbar.

in the Frame of preferred embodiments of the invention is the inner conductor preferably formed like a module and can accordingly, with intermediate Isolator components, in the outer conductor be set. There is such an inner conductor module, in the manner of a conventional one single-pole test pin, from a ram carrying a center contact portion, which in an inner conductor sleeve is mounted axially resiliently; typically, such an inner conductor module then end with a screw thread for anchoring in the test pin structure provided and can in turn turn in an otherwise known manner be contacted to derive the detected electrical signals.

in the It is also within the scope of the present invention with at least one of the test probes according to the invention, preferably a plurality of these test probes, a high-frequency test arrangement in the form of a test adapter to realize which on or in a preferred plate-shaped carrier element a plurality of test pins having. These are suitable in a particularly suitable manner Holes or breakthroughs by means of the external socket held and allow so the realization of even complex test systems.

in the Result enabled it is the present invention in a surprising simple and advantageous way, especially when measuring problems Contact from dirty or with errors in the insulator between Outside- and overcome indoor radio frequency contact partners especially the conditions for a low-wear, high grade Contact-safe and reasonably priced to be realized high-frequency contact solution for testing purposes.

Further Advantages, features and details of the invention will become apparent the following description of preferred embodiments and by reference the figures; these show in:

1 a longitudinal sectional perspective view of the high-frequency Prüfstifts according to a first preferred embodiment of the present invention and

2 a longitudinal section through the device according to 1 with (not yet fully) high frequency contact partner.

The 1 shows in the perspective longitudinal sectional view of a high-frequency test pin according to a first preferred embodiment of the invention. This test pin points in the 1 respectively. 2 on the left side, an end region in the form of an extended first outer conductor element 10 which is typically realized as a metallic rotary part, to an open end to form a hollow cylindrical interior 12 is widened and at the other end a threaded section 14 for connection to an axially adjacent outer conductor middle section 16 having. Between the outer conductor elements 10 and 16 is over an insulator 18 (typically realized as a plastic element) Inner conductor module 20 held, which, within an inner conductor sleeve 22 resiliently mounted, an inner conductor contact plunger 24 with end-side inner conductor contact section 26 leads.

As the figures illustrate, forms the outer contact element 10 an enlarged inside diameter, hollow cylindrical receiving space 12 from and is end tapered or frontally tapered.

The (cylindrical) inner wall 70 of the hollow cylindrical receiving space 12 has a circumferential annular groove 72 on which for receiving a ring spring 74 is measured.

The coaxial and elongated arrangement of outer conductor and inner conductor is guided on the shell side in a thin-walled socket 36 , which surrounds the middle section of the outer conductor shell side. As well as the 1 and 2 can be seen well, creates a relative spring tension between these elements in that an inner annular shoulder 38 the jack and a directed towards the jack ring heel 40 of the outer conductor element 16 each abutment for a (coaxial to this arrangement provided) coil spring 42 form. This then leads to a bushing which is typically firmly held by means of a press fit in a carrier unit of a test adapter or the like 36 the coaxial arrangement of outer and inner conductors resiliently holds.

At the interior (receiving space according to the invention) opposite end of the test pin has a coaxial contact portion, which is designed for connection to conventional coaxial cables or the like in an otherwise known manner for the electrical processing of recorded by the test pin signals. This arrangement initially again has an outer conductor contact 44 which is electrically connected to the outer conductor element 16 is connected, further - by means of a plastic body 46 isolated, an inner conductor contact 48 , which by screwing with the inner conductor module 20 the contact to the probe 26 manufactures.

In the present embodiment, the hollow cylindrical receiving space has an inner diameter of 4 mm, corresponding to a typical coaxial contact partner. In the groove 72 is a ring spring 74 used, for example, by the company Balseal Engineering Co. (based in Kaliornien, USA and Amsterdam, Netherlands) under the product name Balcontact on the market. In the present case, an annular spring of a helix diameter of about 0.7 mm would be used (with a typical wire gauge in the range of 0.1 mm and having about 50 turns per cm). The groove 72 has a groove depth of about half of the winding diameter, so about 0.35 mm based on the free inner wall. In the axial direction, the groove also extends slightly beyond the groove diameter (0.7 mm) in the unloaded state, since the groove must also absorb deformation of the annular spring by inserting.

The 2 shows the connection process of a contact partner as a schematic and electro-technical not shown with separate conductors high-frequency connection partner during insertion, not yet fully inserted state. The in 2 shown high-frequency contact partner has an internal contact 80 for cooperation with the inner conductor tappet 24 or at the end ansitzenden inner conductor contact portion, further coaxially aligned outer conductor 82 (With insulation, not shown), wherein the entire assembly is surrounded by a turn coaxial and resiliently arranged sleeve-shaped cover portion 84 ,

While the contact partner thus constructed (in the direction of 2 directed to the right) into the recording room 12 occurs, first accesses the contact section 26 contacting and frontally on the inner conductor 80 , Upon further insertion of the plunger 34 successively in the inner conductor sleeve 22 (pressed against the force of a compression spring). Once the frontal front of the outer conductor 82 In approximately half penetrated into the receiving space, the mechanical (and electrical) contact is made with the annular spring 74 , which then deforms, in the manner of a resilient ring around the outer surface of the outer contact 82 lays, however, in the groove 72 remains. Correspondingly, the safe and reliable two-pole contact is ensured by the contact now done electrical testing.

Accordingly, the test contact by pulling out of the contact partner (in the direction of 2 to the left).

Claims (12)

High-frequency test pin for releasably contacting an inner ( 80 ) as well as an external contact ( 82 ) having high-frequency contact partner, in particular high-frequency contact socket or plug, with a coaxially formed, one-end contact sections ( 24 . 74 ) for the high-frequency contact partner offering arrangement of an outer conductor ( 10 . 16 . 44 ) and a resiliently guided in the axial direction inner conductor ( 20 . 24 . 48 ), which are externally contactable at the other end, and a bushing (preferably resiliently guiding the outer conductor) ( 36 ), which is designed to be provided in a test apparatus, characterized in that the outer conductor for forming one of the contact portions in an open, a receiving space ( 12 ) end-partner funds ( 74 ) for resiliently contacting a jacket portion of the contact partner extending from an inner wall ( 70 ) of the receiving space and are held on or in this. Apparatus according to claim 1, characterized in that the receiving space ( 12 ) has a hollow cylindrical shape. Apparatus according to claim 1 or 2, characterized in that the means for resilient contacting in a preferably radially circumferential groove ( 72 ) or undercut of the inner wall ( 70 ) are guided. Device according to one of claims 1 to 3, characterized in that the means for resilient contacting as a cross-sectionally encircling spring element, in particular closed annular spring ( 74 ), are formed. Apparatus according to claim 4, characterized in that a ring spring ( 74 ) receiving groove ( 72 ) in the inner wall ( 70 ) Is dimensioned beyond a measure of an unloaded annular spring diameter so that they can absorb the deformed in the contact state annular spring. Apparatus according to claim 4 or 5, characterized in that the annular spring ( 74 ) in the unloaded state has a helix diameter, which is in relation to the cross-sectional inner width of the receiving space of 1: 3 to 1: 8, in particular 1: 5 to 1: 7, and / or the helical diameter in relation to a maximum radial groove depth of the annular wall receiving groove ( 72 ) from 3: 1 to 1.5: 1. Device according to one of claims 1 to 6, characterized in that the outer conductor as an elongated, multi-part conductor arrangement ( 10 . 16 . 44 ) is formed, which at the open end region opposite end of a preferably coaxial contactable male and / or female section ( 44 ) trains. Device according to one of claims 1 to 7, characterized in that the outer conductor is so coaxial with the socket ( 36 ) cooperates, that a stepless transition in the cladding region is realized and / or within the socket lying annular heels ( 38 . 40 ) of outer conductor and bushing as an abutment for a spring guiding effect spring ( 42 ), in particular coaxial coil spring, are formed. Device according to one of claims 1 to 8, characterized in that the inner conductor in a modular manner as a coaxial arrangement of a one Mittenkontaktabschnitt ( 26 ) having plunger ( 24 ) and a plunger axially resiliently supporting inner conductor sleeve ( 20 ) is realized. Apparatus according to claim 9, characterized in that the inner conductor sleeve end opposite the center contact portion with contact means ( 48 ) cooperates for external contacting. RF test set with a preferably plate-shaped Support element, which at least one high-frequency test pin according to one of claims 1 to 10 has. RF test set according to claim 11, characterized in that the at least one High-frequency test probe in a bore and / or an opening of the carrier element under training a press fit is used to the socket.